A traveling vehicle system includes a determiner to determine, upon receiving from a traveling vehicle an entry permission request for an area under control, whether or not a remaining number of vehicles to a maximum number of vehicles allowed to enter the area is equal to or less than a threshold value, and an entry permitter to temporarily hold the entry permission request from the traveling vehicle if the determiner determines the threshold value has not been exceeded and upon arrival of the traveling vehicle at an entry region for the area, grant the traveling vehicle permission to enter the area if a sum of a number of traveling vehicles within the area and a number of traveling vehicles already permitted to enter the area is less than a maximum number of vehicles, but does not grant entry permission if the sum has reached the maximum number of vehicles.

An overhead transport vehicle travels along a rail on a ceiling of a building to transport a FOUP. The overhead transport vehicle includes a holding base and an upper shelf transfer device. The holding base holds at least one of a side surface and a bottom surface of the FOUP. The upper shelf transfer device moves the holding base at least upwardly while holding the FOUP. The upper shelf transfer device moves the holding base from the holding position in which the holding base holds and transfers the FOUP to the upper transfer position to transfer the FOUP, which is a different position from the holding position in a plan view and higher than the holding position.

A method for operating a conveying system is provided. An overhead hoist transport (OHT) vehicle is provided, wherein the OHT vehicle includes a gripping member configured to grip and hold a carrier, and a receiver configured to receive a signal. The signal is transmitted to the receiver of the OHT vehicle. The OHT vehicle is moved toward the carrier, and the carrier is gripped by the gripping member of the OHT vehicle. A lifting force is determined based on a weight of a carrier, a number of workpieces in the carrier, or a vertical distance between the OHT vehicle and the carrier, and the lifting force is applied to the carrier.

The present invention relates to an apparatus for removing fume which includes, a wafer cassette for stacking wafers; and an exhaust for exhausting the fume of the wafers stacked in the wafer cassette, wherein the wafer cassette includes stacking shelves provided at both sides for stacking wafers; and a front opening for incoming and outgoing of the wafers which are being stacked in the stacking shelf, wherein the stacking shelves include multiple inclined ramp portions which are slanted towards the wafers stacked in the stacking shelves as they travel towards the front opening, wherein a purge gas outlet is provided in the inclined ramp portion for supplying purge gas for the wafers stacked in the stacking shelves. According to the present invention, the residual process gases on wafers can be removed efficiently.

A load port apparatus includes an installation section, a frame section, a first wheel, a second wheel, and a supporter. The installation section includes an installation surface for installing a container for containing a substrate. The frame section is disposed on one side of the installation section, extends upward from this one side, and includes a lower fixation unit located below the installation surface. The first wheel is attached below the installation section and has a first diameter. The second wheel is attached below the installation section and further away from the frame section than the first wheel and has a second diameter smaller than the first diameter. The supporter is attached below the installation section and further away from the frame section than the first wheel and has a vertically adjustable distance from the installation surface to a lower end of the supporter.

An under-floor charging station can be mounted under a floor such that a top plate of the under-floor charging station is substantially flush with a top surface of the floor without touching the ground. Openings in the top plate allow charging elements to extend when in use to charge a mobile robot, and to retract under the floor when not in use. The retractable charging elements prevent tripping hazards and allow the mobile robot to move freely throughout a clean room. Moreover, because the charging elements can be retracted in an unobtrusive position when the under-floor charging station is not in use, the under-floor charging station is permitted to be positioned in locations in the clean room that allow the mobile robot to continue working while charging and/or allow non-stop running of the mobile robot.

According to one aspect of the present disclosure, a transport system includes a mobile cassette unit capable of storing a plurality of structures and supplying the structures to an inspection unit, wherein each of the structures includes a substrate on which a plurality of devices are formed, and an interconnect member including a contact section that electrically contacts an electrode of the plurality of devices.

An article transport vehicle includes a travel body; a holding device that holds an article; and a lift device that is on the travel body, and that raises and lowers the holding device with respect to the travel body. The holding device includes: a connection portion connected to the lift device and an article support portion that supports the article; an elastic support mechanism that is between the article support portion and the connection portion, and that supports the article support portion against the connection portion while being elastic in a vertical direction, and a guide mechanism that guides the article support portion in the vertical direction with respect to the connection portion. The guide mechanism allows the article support portion to move parallel with the vertical direction with respect to the connection portion and restricts swinging of the article support portion with respect to the connection portion.

Proposed is a transport vehicle including a traveling unit being moved along a first direction, a slide unit being driven for sliding in a second direction vertical to the first direction, a hand unit ascending and descending by a hoist combined with the slide unit and gripping the goods, and a control unit controlling driving of the traveling unit for traveling or driving of the slide unit for sliding, wherein the control unit applies a filter signal to an initial slide control signal for driving for sliding and controls driving of the hand unit for sliding through a drive control signal for sliding to which the filter signal is applied, and the filter signal includes a plurality of impulse signals and an interval between the impulse signals is determined as a value corresponding to a length of the hoist in linear interpolation on pre-stored period values on a per-hoist-length basis.

There is provided a conveyance system that conveys a workpiece to each of plural processing apparatuses. The conveyance system includes a conveyance passage, an automated workpiece conveying vehicle that travels on the conveyance passage, a stock unit, and a control unit. The conveyance passage is set in a space directly above the processing apparatus across the plural processing apparatus. The stock unit includes a placement base on which a workpiece stocker capable of housing plural workpieces is placed, two temporary putting bases on which the workpiece carried out from the workpiece stocker on the placement base is temporarily put, a temporary putting base movement part that moves the two temporary putting bases in such a manner as to interchange the two temporary putting bases between a first position that faces the placement base and a second position adjacent to the first position.